Time-Energy-Constrained Closed-Loop FBL Communication for Dependable MEC
Bin Han, Yao Zhu, Anke Schmeink, and Hans D. Schotten
TL;DR
This paper investigates a closed-loop communication scheme for MEC in 6G networks, optimizing blocklength allocation under strict time and energy constraints to enhance dependability beyond traditional URLLC.
Contribution
It introduces a novel policy for blocklength allocation in time-energy-constrained closed-loop MEC communication, addressing reliability in a new paradigm.
Findings
Optimal blocklength allocation policy derived
Enhanced reliability under energy and time constraints demonstrated
Framework applicable to future 6G MEC systems
Abstract
The deployment of multi-access edge computing (MEC) is paving the way towards pervasive intelligence in future 6G networks. This new paradigm also proposes emerging requirements of dependable communications, which goes beyond the ultra-reliable low latency communication (URLLC), focusing on the performance of a closed loop instead of that of an unidirectional link. This work studies the simple but efficient one-shot transmission scheme, investigating the closed-loop-reliability-optimal policy of blocklength allocation under stringent time and energy constraints.
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